Responses of foraging ant populations to high-intensity wildfire, salvage logging and natural regeneration processes in Eucalyptus regnans regrowth forest of the Victorian Central Highlands

Summary

The effects of high-intensity wildfire plus salvage logging and fire-induced natural regeneration processes on foraging ants (Formicidae) were assessed in multiple-use Eucalyptus regnans (Mountain Ash) regrowth forest approximately 60 km east of Melbourne in the Victorian Central Highlands. The study was based on 35 912 ant specimens, and on 69 493 epigeal non-ant arthropods of 27 taxa, contained in 2,160 pitfall trap samples collected at three sites over a single pre-fire year and two post-fire years.

Twenty ant species of sub-families Dolichoderinae, Formicinae, Myrmeciinae, Myrmicinae and Ponerinae were identified, but only Notoncus spinisquamis, Myrmecia pilosula and Chelaner sculpturatus could be validated. Two species were placed into the newly erected genus OcheteUus (Dolichoderinae), and one species of Myrmicinae could not be identified below sub-family rank. The biology and taxonomy of the majority of these species is uncertain, although the most commonly trapped ant, Prolasius? pallidus, is a recognised seed harvester, and two other species of Prolasius plus C. sculpturatus are suspected seed harvesters. The second most frequently trapped species, Iridomyrmex? foetans, is a carnivore and scavenger. Chelaner sculpturatus was the most frequently trapped among 18 “minor” species.

The rapid replacement of the ecologically complex regrowth forest by young even-aged regeneration of E. regnans through wildfire effects and salvage logging caused a substantial increase in foraging activity of P. pallidus during the first post-fire autumn period, and activity remained high for up to 14 months depending on elevation of the forested landscape. Activity of I. foetans declined immediately after the fire, but eight months later it was significantly higher than “control plot” levels for up to four months. The response of the less frequently trapped “minor” species to the wildfire, logging and regeneration processes remained uncertain because of the low numbers trapped before and after the fire. Prolific regeneration of E. regnans emerged in the burnt forest, suggesting that fire-induced seed fall was sufficiently large and extensive to have caused predator satiation. The implications of this for artificial regeneration programs in E. regnans forest are discussed.